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Well my friend, even small objects like us have weight because we're attracted to bigger things like Earth. The Earth's mass makes it have a stronger pull of gravity than the moon's, which is why things weigh less on the moon than they do here. Nature is always assisting and adjusting, so no need to worry about a thing.
What else can I help you with?
What provides the force that causes the centripetal acceleratoin of the satellite in orbit?
The force that provides the centripetal acceleration for a satellite in orbit is the gravitational force between the satellite and the celestial body it is orbiting, such as Earth. This gravitational force acts as the centripetal force that keeps the satellite in its circular path around the celestial body.
Why is the weight of an object more on Earth than on the Moon?
The weight of an object is determined by the force of gravity acting on it, which depends on both the mass of the object and the gravitational acceleration of the celestial body it is on. Earth has a stronger gravitational pull (approximately 9.81 m/s²) compared to the Moon (about 1.62 m/s²). As a result, an object weighs significantly more on Earth than on the Moon because the gravitational force exerted on it is greater on our planet.
What happens when a body leaves the earth's gravitational fore?
When a body leaves Earth's gravitational force, it enters a state of free fall or microgravity, where it experiences weightlessness. The body follows a trajectory determined by its initial velocity and any other gravitational influences, such as those from the Moon or other celestial bodies. As it moves away from Earth, it gradually experiences a decrease in gravitational pull, eventually becoming influenced primarily by the gravity of other bodies in space. If the velocity is sufficient, it may enter orbit or escape Earth's gravitational field entirely.
Is the moon flat?
No, the moon is not flat. It is a three-dimensional celestial body that orbits Earth. Its spherical shape is a result of its gravitational pull, much like other celestial objects in space.
Where earth gravitationl force become zero?
Because there is no range limit on the gravitational force, the gravitational force of the earth is only zero in the exact centre of the earth, where it cancels itself out. Realistically, the force is so small outside the immediate vicinity of earth, that it may as well be zero.
What objects on earth exert a greater gravational pull than your whole body?
The Earth itself exerts a greater gravitational pull on objects than an individual's body, as well as massive celestial bodies like the Sun and the Moon. Additionally, large rocks or structures with significant mass can also exert a greater gravitational pull due to their mass.
Is gravitational force due to magma inside earth?
No, the gravitational force of the Earth, or any body in the Universe, is because of the mass of that body...... the amount of matter the body comprises. The greater the mass, the greater the gravitational tug.
Tides are caused by the gravitational attraction of the moon and what other celestial body?
Tides are primarily caused by the gravitational attraction of the moon and the sun. The gravitational pull of these two celestial bodies on Earth's oceans creates the regular rise and fall of the water level along coastlines.
How can one derive the escape velocity of an object from a celestial body?
To derive the escape velocity of an object from a celestial body, you can use the formula: escape velocity (2 gravitational constant mass of celestial body / distance from the center of the celestial body). This formula takes into account the gravitational pull of the celestial body and the distance of the object from its center. By calculating this value, you can determine the minimum velocity needed for an object to escape the gravitational pull of the celestial body.
Is earth floating in air?
No, Earth is not floating in the air. Earth is a celestial body that orbits the sun in space. It has its own gravitational pull that keeps it in its orbit around the sun.
Where is the greatest gravitational pull?
The gravitational pull of any celestial body, is the maximum on its poles.
What provides the force that causes the centripetal acceleratoin of the satellite in orbit?
The force that provides the centripetal acceleration for a satellite in orbit is the gravitational force between the satellite and the celestial body it is orbiting, such as Earth. This gravitational force acts as the centripetal force that keeps the satellite in its circular path around the celestial body.
Why is the weight of an object more on Earth than on the Moon?
The weight of an object is determined by the force of gravity acting on it, which depends on both the mass of the object and the gravitational acceleration of the celestial body it is on. Earth has a stronger gravitational pull (approximately 9.81 m/s²) compared to the Moon (about 1.62 m/s²). As a result, an object weighs significantly more on Earth than on the Moon because the gravitational force exerted on it is greater on our planet.
Which celestial body has a greater effect on tidal forces on earth?
The moon has a greater effect on tidal forces on Earth compared to the sun. This is because the moon is closer to Earth and exerts a stronger gravitational pull, causing the tides to be primarily influenced by the moon's position.
Why is the gravitational field strength of earth and moon are different?
The gravitational field strength of Earth and the Moon differs because each celestial body has its own mass and radius. Earth is more massive and has a larger radius compared to the Moon, leading to a stronger gravitational field on Earth. The gravitational field strength decreases with distance from the center of the body, so being closer to Earth results in a stronger gravitational pull compared to being closer to the Moon.
As the mass of a body increases its gravitational force of attraction on the earth?
increases as well, due to the greater mass of the body. This is because gravity is directly proportional to the mass of the object. So, the more massive the body, the stronger the gravitational force it exerts on Earth.
What happens when a body leaves the earth's gravitational fore?
When a body leaves Earth's gravitational force, it enters a state of free fall or microgravity, where it experiences weightlessness. The body follows a trajectory determined by its initial velocity and any other gravitational influences, such as those from the Moon or other celestial bodies. As it moves away from Earth, it gradually experiences a decrease in gravitational pull, eventually becoming influenced primarily by the gravity of other bodies in space. If the velocity is sufficient, it may enter orbit or escape Earth's gravitational field entirely.
